A genome-wide screen using 382 STR markers to localize and identify the gene implicated in early-onset dementia (EOD) without bone cysts in a Lebanese family with three affected subjects was conducted. A unique locus homozygous by descent at chromosome 6p21.2 locus was identified. Candidate genes were explored by fluorescent sequencing and the effect of the identified mutation was confirmed by qualitative and quantitative RT-PCR. The genetic analysis revealed a novel deletion, c.40+3delAGG, in the 5' consensus donor splice site in intron 1 of TREM2 gene which is known to be responsible for PLOSL (Polycystic Lipomembranous Osteodysplasia with Sclerosing Leukoencephalopathy) also designated as Nasu-Hakola disease. In silico analysis predicted a lower strength for the novel donor splice site. Qualitative RT-PCR revealed normal transcript while quantitative RT-PCR showed over twofold down-regulation of TREM2 transcripts. The expression profile of six genes SPP1, NEDD9, FSCN, BCL3, NFKBIA and CCL2 known as disrupted in TREM2-deficient samples was studied and showed same expression profile as TREM2-mutated samples except for CCL2 which was normally regulated. The significantly-reduced expression of TREM2 in our patients and the expression profiles of the six studied genes confirm a role for TREM2 in this distinct phenotype of EOD without bone cysts. To our knowledge, this is the first report of mutations in TREM2 causing a pure dementia.
Autosomal recessive Charcot-Marie-Tooth disease (CMT) type 4 (CMT4) is a complex group of demyelinating hereditary motor and sensory neuropathies presenting genetic heterogeneity. Five different subtypes that correspond to six different chromosomal locations have been described. We hereby report a large inbred Lebanese family affected with autosomal recessive CMT4, in whom we have excluded linkage to the already-known loci. The results of a genomewide search demonstrated linkage to a locus on chromosome 19q13.1-13.3, over an 8.5-cM interval between markers D19S220 and D19S412. A maximum pairwise LOD score of 5.37 for marker D19S420, at recombination fraction [theta].00, and a multipoint LOD score of 10.3 for marker D19S881, at straight theta = .00, strongly supported linkage to this locus. Clinical features and the results of histopathologic studies confirm that the disease affecting this family constitutes a previously unknown demyelinating autosomal recessive CMT subtype known as "CMT4F." The myelin-associated glycoprotein (MAG) gene, located on 19q13.1 and specifically expressed in the CNS and the peripheral nervous system, was ruled out as being the gene responsible for this form of CMT.
Distal hereditary motor neuropathies (dHMNs) are a heterogeneous group of diseases, resembling Charcot–Marie–Tooth syndromes, but characterized by an exclusive involvement of the motor part of the peripheral nervous system.
Here, we describe two new compound heterozygous mutations in VRK1, the vaccinia-related kinase 1 gene, in two siblings from a Lebanese family, affected with dHMN associated with upper motor neurons (MNs) signs. The mutations lead to severely reduced levels of VRK1 by impairing its stability, and to a shift of nuclear VRK1 to cytoplasm. Depletion of VRK1 from the nucleus alters the dynamics of coilin, a phosphorylation target of VRK1, by reducing its stability through increased proteasomal degradation. In human-induced pluripotent stem cell-derived MNs from patients, we demonstrate that this drop in VRK1 levels leads to Cajal bodies (CBs) disassembly and to defects in neurite outgrowth and branching. Mutations in VRK1 have been previously reported in several neurological diseases affecting lower or both upper and lower MNs. Here, we describe a new phenotype linked to VRK1 mutations, presenting as a classical slowly progressive motor neuropathy, beginning in the second decade of life, with associated upper MN signs. We provide, for the first time, evidence for a role of VRK1 in regulating CB assembly in MNs. The observed MN defects are consistent with a length dependent axonopathy affecting lower and upper MNs, and we propose that diseases due to mutations in VRK1 should be grouped under a unique entity named `VRK1-related motor neuron disease’.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.